Characterization, stability, and antioxidant activity of Salicornia herbaciea seed oil

Dubok Choi; Geum-Sook Lim; Yu Lan Piao; On-You Choi; Ki-An Cho; Choon-Bae Park; Young-Cheol Chang; Young-Il Song; Myung-Koo Lee; Hoon Cho

Korean Journal of Chemical Engineering, Vol.31, No.12, 2221-2228, December, 2014

DOI10.1007/s11814-014-0163-7 Export Citation

Characterization, stability, and antioxidant activity of Salicornia herbaciea seed oil

Dubok Choi¹, Geum-Sook Lim², Yu Lan Piao³, On-You Choi^{4, 5}, Ki-An Cho^{4, 5}, Choon-Bae Park⁶, Young-Cheol Chang⁷, Young-Il Song⁸, Myung-Koo Lee¹, and Hoon Cho^{3, †}

¹Department of Pharmacy, College of Pharmacy, Chungbuk National University, Cheongju 361-763, Korea
²Interdisciplinary Program of Perfume and Cosmetics, Chonnam National University Graduate School, Gwangju 500-757, Korea
³Department of Biochemical Polymer Science & Engineering, Chosun University, Gwangju 501-759, Korea
⁴Biochem Lab., Shinchon E&C R&D, Gwangju 500-010, Korea
⁵Department of Medicine Management, Chodang University, Jeonnam 534-800, Korea
⁶Department of Information & Communication Engineering, Wonkwang University, Iksan 570-749 Korea
⁷Biosystem Course, Division of Applied Sciences, Muroran Institute of Technology, 27-1 Mizumoto, Muroran 050-8585, Japan
⁸Leaders in Industry University Cooperation (LINC), Chosun University, Gwangju 501-759, Korea

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We investigated the physicochemical properties, chemical composition, stability and antioxidant activity from seed oil of Salicornia herbaciea grown in Korea. The density, refractive index, acid value, peroxide value, iodine value, saponification value, and unsaponifiable matter of oil were 0.91mg/mL, 1.48 at 20 ℃, 1.89mg KOH/g oil, 10.20 mEq/kg oil, 1.08 g I/g oil, 216.21 mg KOH/g oil, and 2.60%, respectively. The major fatty acids were linoleic acid (43.73%), oleic acid (19.81%), arachidic acid (13.52%), and palmitic acid (11.84%), respectively. The oil contained high levels of α-tocopherol (249.2 mg/kg oil), followed by δ-tocopherol (89.3 mg/kg), and γ-tocopherol (75.6 mg/kg oil). The oil was found to have high levels of β-sitosterol (94.5mg/kg oil) and stigmasterol (65.7mg/kg oil), respectively. The total phenol, chlorophyll and β-carotene content of oil was 15.2, 94.5, and 8.2 mg/kg oil, respectively. The oil had good oxidative stability during 60 days of storage in a dark area at 50 ℃. The maximum degradation rates of the oil were observed at 242.3 ℃ (9.5%/min), 382.6 ℃ (5.2%/min), and 440.7 ℃ (1.3%/min), respectively, where the rate of the weight decrease increased to a maximum up to this point. The ABTS radical scavenging activity of the oil was increased from 50.2 to 71.8% when the oil concentration extracted by methanol was increased from 100 to 300 μg/mL. This study suggests that S. herbaciea seed oil has potential use in functional foods, cosmetics or pharmaceuticals.

Keywords:Salicornia herbaciea;Seed Oil;Fatty Acids;Stability;Antioxidant Activity

[References]

Dugo G, Pera L, Torre GL, Giuffrida D, Food Chem., 87, 639 (2003)
Ramadan MF, Moersel JT, J. Food Comp. Anal., 19, 838 (2006)
Eganathan P, Subramanian HM, Latha SRR, Rao CR, Ind. Crops Prod., 23, 177 (2006)
Farooq A, Bhanger MI, Khall M, Nasir A, Sarwat I, J. Agric. Food Chem., 50, 4210 (2002)
Kang S, Kim D, Lee BH, Kim MR, Chiang MH, Hong JG, Food Sci. Biotechnol., 20, 115 (2011)
Rhee MH, Park HJ, Cho JY, J. Med. Plant Res., 3, 548 (2009)
Shin KS, Boo HO, Jeon MW, Ko JH, Kor. J. Plant. Res., 15, 216 (2002)
Song HS, Kim DP, Jung YH, Lee MK, Kor. J. Food Nutr., 20, 150 (2007)
Sung JH, Park SH, Seo DH, Lee JH, Hong SW, Hong SS, Biosci., Biotechnol., Biochem., 73, 552 (2009)
Jung BM, Park JA, Bae SJ, J. Kor. Soc. Food Sci. Nutr., 37, 148 (2008)
Jo YC, Ahn JH, Chon SM, Lee KS, Bae TJ, Kang DS, Kor. J. Medicinal Crop. Sci., 10, 93 (2002)
Pritchard JLR, Analysis and properties of oil seeds, Applied Science (Elsevier), New York (1991)
Glenn EP, Brown J, O’Leary J, Sci. Am., 279, 56 (1998)
Choi OY, Choi DB, Park CB, Oh BI, Cho HJ, Jeong HRS, Korea Patent, 10-1022137 (2011)
Choi OY, Choi DB, Park CB, Oh BI, Ha BS, Kim HJ, Noh YH, Cho HJ, Jeong HRS, Korea Patent, 10-1022133 (2011)
A.O.C.S., Official and tentative methods of American Oil Chemist’s society, American Oil Chemists Society Press, Champaign (1990)
Anwar F, Latif S, Ashraf M, J. Am. Oil. Chem. Soc., 83, 323 (2006)
Austenfeld FA, Physiol. Plantarum., 68, 446 (1986)
Marcelo GM, Joaquin AM, Jullana SL, Cesar SB, Anais da Annals of the Brazilian Aca. Sci., 84, 865 (2012)
Webera DJ, Ansarib R, Gulb B, Ajmal Khanb M, J. Arid. Environ., 68, 315 (2007)
Nehdi I, Omri S, Khalil MI, Al-Resayes SI, Ind. Crops Prod., 32, 360 (2010)
Mellerup J, Bach M, Enkelund JV, US Patent, 7,288,278 (2007)
Fireston D, Physical and chemical characteristics of oil, fat, and waxes, American Oil Chemists Society Press, New York (2006)
Frega N, Mozzon M, Lercker G, J. Am. Oil. Chem. Soc., 76, 325 (1999)
Goodrum JW, Biomass Bioenerg., 22(3), 205 (2002)
Nasri N, Khaldi A, Fady B, Triki S, Phytochem., 66, 1729 (2005)
Vles RO, Gottenbos JJ, Nutritional characteristics and food uses of vegetable oils, Oil crops of the world, New York, USA, McGraw Hill (1989)
Li C, Yao T, Zhao GZ, Cheng W, Liu HL, Liu CY, Shi Z, Chen Y, Wang S, J. Agric. Food Chem., 59, 12493 (2011)
Liang T, Liao S, Biochem. J., 285, 557 (1992)
Veeresh Babu SV, Veeresh B, Anup Patil A, Warke YB, Eur. J. Pharmacol., 626, 262 (2010)
Chang NW, Huang PC, Lipid., 33, 481 (1998)
Rossell JB, Vegetable oil and fats, Applied Sciences, Elsevier, New York (1991)
Stuchilk M, Zak S, Biomed. Pap., 146, 3 (2002)
Gutierrez F, Varona I, Albi MA, J. Agr. Food Chem., 48, 1106 (2000)
Canabate-Daz B, Segura-Carretero A, Fernandez-Gutierrez A, Belmonte Vega A, Garrido Frenich A, Martinez-Vidal JL, Food Chem., 102, 593 (2007)
Ostlund RE, Ann. Rev. Nut., 22, 533 (2002)
Awad A, J. Nutr., 130, 2127 (2000)
Stiti N, Msallem M, Triki S, Cherif A, La Rivista Italiana delle Sostanze Grasse, 79, 357 (2002)
Siger A, Nogala-Kalucka M, Lampart-Szczapa E, J. Food Lipid., 15, 137 (2008)
Miraliakbari H, Shahidi F, Food Chem., 111, 421 (2008)
Castelo-Branco VN, Torres AG, Lipid Technol., 2, 152 (2009)
Basu HN, Vecchio AJD, Flider F, Orthoefer FT, J. Am. Oil. Chem. Soc., 78, 665 (2001)
Okogeri O, Tasioula-Margari M, J. Agr. Food Chem., 50, 1077 (2002)
Tsimidou MZ, Georgiou A, Koidis A, Boskou D, Food Chem., 93, 377 (2005)
Moros J, Roth M, Garrigues S, De la Guardia M, Food Chem., 114, 1529 (2009)
Belitz HD, Grosch W, Vegetable oil, Food chemistry (2nd Ed.), Berlin, Springer (1999)
Koski A, Pekkarinen S, Hopia A, Wahala K, Heinonen M, Euro. Food Res. Technol., 217, 110 (2003)
Morello JR, Motilva MJ, Tovar MJ, Romero MP, Food Chem., 85, 357 (2004)
Santos JCO, Dantas JP, Conceio MM, Athaide-Filho PF, Souza AG, J. Therm. Anal. Cal., 79, 283 (2005)
Santos JCO, Santos IMG, Conceicao MM, Porto SL, Trindade MFSA, Souza G, Prasad S, Fernandes VJ, Araujo AS, J. Therm. Anal. Calorim., 75, 419 (2004)
Solis-Fuentes JA, Camey-Ortiz G, Hernandez-Medel MD, Perez-Mendoza F, Duran-de-Bazua C, Bioresour. Technol., 101(2), 799 (2010)
Rohman A, Man YC, Food Anal. Meth., 4, 155 (2011)

[Referenced By]

[1] Dugo G, Pera L, Torre GL, Giuffrida D, Food Chem., 87, 639 (2003)

[2] Ramadan MF, Moersel JT, J. Food Comp. Anal., 19, 838 (2006)

[3] Eganathan P, Subramanian HM, Latha SRR, Rao CR, Ind. Crops Prod., 23, 177 (2006)

[4] Farooq A, Bhanger MI, Khall M, Nasir A, Sarwat I, J. Agric. Food Chem., 50, 4210 (2002)

[5] Kang S, Kim D, Lee BH, Kim MR, Chiang MH, Hong JG, Food Sci. Biotechnol., 20, 115 (2011)

[6] Rhee MH, Park HJ, Cho JY, J. Med. Plant Res., 3, 548 (2009)

[7] Shin KS, Boo HO, Jeon MW, Ko JH, Kor. J. Plant. Res., 15, 216 (2002)

[8] Song HS, Kim DP, Jung YH, Lee MK, Kor. J. Food Nutr., 20, 150 (2007)

[9] Sung JH, Park SH, Seo DH, Lee JH, Hong SW, Hong SS, Biosci., Biotechnol., Biochem., 73, 552 (2009)

[10] Jung BM, Park JA, Bae SJ, J. Kor. Soc. Food Sci. Nutr., 37, 148 (2008)

[11] Jo YC, Ahn JH, Chon SM, Lee KS, Bae TJ, Kang DS, Kor. J. Medicinal Crop. Sci., 10, 93 (2002)

[12] Pritchard JLR, Analysis and properties of oil seeds, Applied Science (Elsevier), New York (1991)

[13] Glenn EP, Brown J, O’Leary J, Sci. Am., 279, 56 (1998)

[14] Choi OY, Choi DB, Park CB, Oh BI, Cho HJ, Jeong HRS, Korea Patent, 10-1022137 (2011)

[15] Choi OY, Choi DB, Park CB, Oh BI, Ha BS, Kim HJ, Noh YH, Cho HJ, Jeong HRS, Korea Patent, 10-1022133 (2011)

[16] A.O.C.S., Official and tentative methods of American Oil Chemist’s society, American Oil Chemists Society Press, Champaign (1990)

[17] Anwar F, Latif S, Ashraf M, J. Am. Oil. Chem. Soc., 83, 323 (2006)

[18] Austenfeld FA, Physiol. Plantarum., 68, 446 (1986)

[19] Marcelo GM, Joaquin AM, Jullana SL, Cesar SB, Anais da Annals of the Brazilian Aca. Sci., 84, 865 (2012)

[20] Webera DJ, Ansarib R, Gulb B, Ajmal Khanb M, J. Arid. Environ., 68, 315 (2007)

[21] Nehdi I, Omri S, Khalil MI, Al-Resayes SI, Ind. Crops Prod., 32, 360 (2010)

[22] Mellerup J, Bach M, Enkelund JV, US Patent, 7,288,278 (2007)

[23] Fireston D, Physical and chemical characteristics of oil, fat, and waxes, American Oil Chemists Society Press, New York (2006)

[24] Frega N, Mozzon M, Lercker G, J. Am. Oil. Chem. Soc., 76, 325 (1999)

[25] Goodrum JW, Biomass Bioenerg., 22(3), 205 (2002)

[26] Nasri N, Khaldi A, Fady B, Triki S, Phytochem., 66, 1729 (2005)

[27] Vles RO, Gottenbos JJ, Nutritional characteristics and food uses of vegetable oils, Oil crops of the world, New York, USA, McGraw Hill (1989)

[28] Li C, Yao T, Zhao GZ, Cheng W, Liu HL, Liu CY, Shi Z, Chen Y, Wang S, J. Agric. Food Chem., 59, 12493 (2011)

[29] Liang T, Liao S, Biochem. J., 285, 557 (1992)

[30] Veeresh Babu SV, Veeresh B, Anup Patil A, Warke YB, Eur. J. Pharmacol., 626, 262 (2010)

[31] Chang NW, Huang PC, Lipid., 33, 481 (1998)

[32] Rossell JB, Vegetable oil and fats, Applied Sciences, Elsevier, New York (1991)

[33] Stuchilk M, Zak S, Biomed. Pap., 146, 3 (2002)

[34] Gutierrez F, Varona I, Albi MA, J. Agr. Food Chem., 48, 1106 (2000)

[35] Canabate-Daz B, Segura-Carretero A, Fernandez-Gutierrez A, Belmonte Vega A, Garrido Frenich A, Martinez-Vidal JL, Food Chem., 102, 593 (2007)

[36] Ostlund RE, Ann. Rev. Nut., 22, 533 (2002)

[37] Awad A, J. Nutr., 130, 2127 (2000)

[38] Stiti N, Msallem M, Triki S, Cherif A, La Rivista Italiana delle Sostanze Grasse, 79, 357 (2002)

[39] Siger A, Nogala-Kalucka M, Lampart-Szczapa E, J. Food Lipid., 15, 137 (2008)

[40] Miraliakbari H, Shahidi F, Food Chem., 111, 421 (2008)

[41] Castelo-Branco VN, Torres AG, Lipid Technol., 2, 152 (2009)

[42] Basu HN, Vecchio AJD, Flider F, Orthoefer FT, J. Am. Oil. Chem. Soc., 78, 665 (2001)

[43] Okogeri O, Tasioula-Margari M, J. Agr. Food Chem., 50, 1077 (2002)

[44] Tsimidou MZ, Georgiou A, Koidis A, Boskou D, Food Chem., 93, 377 (2005)

[45] Moros J, Roth M, Garrigues S, De la Guardia M, Food Chem., 114, 1529 (2009)

[46] Belitz HD, Grosch W, Vegetable oil, Food chemistry (2nd Ed.), Berlin, Springer (1999)

[47] Koski A, Pekkarinen S, Hopia A, Wahala K, Heinonen M, Euro. Food Res. Technol., 217, 110 (2003)

[48] Morello JR, Motilva MJ, Tovar MJ, Romero MP, Food Chem., 85, 357 (2004)

[49] Santos JCO, Dantas JP, Conceio MM, Athaide-Filho PF, Souza AG, J. Therm. Anal. Cal., 79, 283 (2005)

[50] Santos JCO, Santos IMG, Conceicao MM, Porto SL, Trindade MFSA, Souza G, Prasad S, Fernandes VJ, Araujo AS, J. Therm. Anal. Calorim., 75, 419 (2004)

[51] Solis-Fuentes JA, Camey-Ortiz G, Hernandez-Medel MD, Perez-Mendoza F, Duran-de-Bazua C, Bioresour. Technol., 101(2), 799 (2010)

[52] Rohman A, Man YC, Food Anal. Meth., 4, 155 (2011)